A drill bit includes a floating journal bushing, a seal, a cutter having a seal gland for the seal and a cutter bearing surface proximate to the journal bearing, wherein the cutter bearing surface has a first inner diameter, and a journal, wherein the cutter is rotatably coupled about the journal, wherein the journal bearing is rotatably coupled about the journal, wherein the journal has a seal boss having a first diameter, and a journal bearing surface having a second diameter, and wherein the first diameter is less than the first inner diameter.
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6. A drill bit comprising
a journal bearing, wherein the journal bearing is chosen from a non-bushing bearing and a floating journal bushing;
a seal;
a cutter comprising a seal gland for the seal and a cutter bearing surface proximate to the journal bearing, wherein the cutter bearing surface comprises a first cutter inner diameter;
a cutter bearing surface extension positioned adjacent to the cutter bearing surface and proximate to the journal bearing, wherein the cutter bearing surface extension comprises a lip positioned proximate to the seal gland, and the seal comprises a seal cross section width and wherein a length of the cutter bearing surface extension is in a range from about 1% to about 50% of the seal cross section width; and
a journal, wherein the cutter is rotatably coupled about the journal and wherein the journal bearing is rotatably coupled about the journal, wherein the journal comprises a seal boss having a first journal outer diameter, and a journal bearing surface having a second journal outer diameter, wherein the first journal outer diameter is less than the first cutter inner diameter.
1. A drill bit comprising
a floating journal bushing;
a seal;
a cutter comprising a seal gland for the seal and a cutter bearing surface proximate to the floating journal bushing, wherein the cutter bearing surface comprises a first cutter inner diameter, wherein the cutter bearing surface further comprises a cutter bearing surface extension, the cutter bearing surface extension comprises a lip positioned proximate to the seal gland, and wherein the seal comprises a seal cross section width and wherein a length of the cutter bearing surface extension is in a range from about 1% to about 50% of the seal cross section width;
a journal, wherein the cutter is rotatably coupled about the journal, wherein the floating journal bushing is rotatably coupled about the journal, wherein the journal comprises a seal boss having a first journal outer diameter, and a journal bearing surface having a second journal outer diameter, and wherein the first journal outer diameter is less than the first inner diameter; and
a bushing flange positioned between the journal bearing surface and seal boss, wherein a length of the bushing flange is in a range from about 25% to about 75% of a width of the floating journal bushing.
2. The drill bit of
3. The drill bit of
4. The drill bit of
5. The drill bit of
7. The drill bit of
8. The drill bit of
9. The drill bit of
wherein the journal bearing is a floating journal bushing; and
wherein the journal further comprises a bushing flange positioned between the journal bearing surface and seal boss.
10. The drill bit of
11. The drill bit of
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This application claims the benefit of U.S. Provisional Patent Application No. 60/834,864 filed Aug. 2, 2006.
This invention relates in general to earth-boring bits for use in a downhole environment, and, more specifically, to a seal assembly for a earth boring bit.
One of the important types of rotary drill bits in the petroleum business is the roller cone bit. As the drill bit rotates, the applied weight-on-bit (“WOB”) forces the downward pointing teeth of the rotating cones into the formation being drilled. Thus the points of the teeth apply a compressive stress which exceeds the yield stress of the formation, and this induces fracturing. The resulting fragments are flushed away from the cutting face by the drilling fluid or mud.
Roller cone-type bits typically include bearings, such as ball bearings, roller bearings, or more simply journal bearings. A seal, such as an elastomeric seal, is typically used between the bearings and the outside environment to keep lubricant around the bearings and to keep contamination out. In a rotary seal, where one surface rotates around another, some special considerations are important in the design of both the seal itself and the seal gland into which it is seated. For instance, the elastomeric seal should be under compressive (as opposed to tensile) stress, and while there should be enough pressure between the seal and the rotating surface to prevent leakage, the pressure should be minimized to reduce friction and wear.
The constraints on the seals used in downhole applications are different from those of other low-speed sealing applications in several respects. First, everything in a bit, which operates deep in the earth, must be extremely robust to withstand the pressure and eccentric motion to which the bits are subjected. Additionally, the seals are themselves exposed to abrasive materials from two sources: not only does the drilling fluid near the cutting face include a heavy load of abrasive material (which is moving very turbulently at very high velocities), but the bearings themselves, as they wear, will tend to produce metal particles, and these metal particles themselves may be abrasive to a soft seal. Thus, both sides of the seal should ideally be protected from these abrasive effects. Additionally, the bit is operating in a remote environment from which it may take hours to retrieve for replacement, so it is highly desirable to have the bit operate for as long as possible.
One problem with conventional drill bit seals is that, as the bit is operated, the seal will inevitably wear, so that less compressive force is applied against the moving surface, running the risk that a leak will develop across the seal. Therefore, it is a desire to provide a seal assembly of a earth boring bit that protects the seal and improves bit performance.
A rotary seal assembly for a drill bit, such as a roller cone drill bit, is provided. In one embodiment, a drill bit includes a floating journal bushing, a seal, a cutter having a seal gland for the seal and a cutter bearing surface proximate to the journal bearing, wherein the cutter bearing surface has a first inner diameter, and a journal, wherein the cutter is rotatably coupled about the journal, wherein the floating journal bushing is rotatably coupled about the journal, wherein the journal includes a seal boss having a first diameter, and a journal bearing surface having a second diameter, and wherein the first diameter is less than the first inner diameter.
In another embodiment, a drill bit includes a journal bearing, a seal, a cutter having a seal gland for the seal and a cutter bearing surface proximate to the journal bearing, wherein the cutter bearing surface comprises a first inner diameter, a cutter bearing surface extension positioned adjacent to the cutter bearing surface and proximate to the journal bearing, and a journal, wherein the cutter is rotatably coupled about the journal and wherein the journal bearing is rotatably coupled about the journal.
In another embodiment, a drill bit includes a journal bearing, a seal, a cutter having a seal gland for the seal and a cutter bearing surface proximate to the journal bearing, wherein the cutter bearing surface has a first inner diameter, a journal, wherein the cutter is rotatably coupled about the journal and wherein the journal bearing is rotatably coupled about the journal, and wherein the seal gland has a first cavity for the seal and a second cavity proximate to the seal.
The foregoing has outlined rather generally the features and technical advantages of one or more embodiments of the present invention in order that the detailed description of the present invention that follows may be better understood. Additional features and advantages of the present invention will be described hereinafter which may form the subject of the claims of the present invention.
A better understanding of the present invention can be obtained when the following detailed description is considered in conjunction with the following drawings, in which:
Refer now to the drawings wherein depicted elements are not necessarily shown to scale and wherein like or similar elements are designated by the same reference numeral through the several views.
As used herein, the terms “up” and “down”; “upper” and “lower”; “uphole” and “downhole” and other like terms indicating relative positions to a given point or element are utilized to more clearly describe some elements of the embodiments of the invention. Commonly, these terms relate to a reference point as the surface from which drilling operations are initiated as being the top point and the total depth of the well being the lowest point.
The present invention is directed to a seal assembly for an earth-boring bit, such as a roller cone bit. In one embodiment, the seal assembly may increase seal coverage, and shirttail length, while reducing seal surface speed. The seal assembly may increase the life span of the seal to improve drill bit performance and reliability. In another embodiment, the seal assembly may provide greater bearing surface, longer bearing sleeve and improves bearing load capacity.
Seal boss offset 30 allows the seal gland 20 to have a smaller inner diameter or width 46. other words, width 46 is smaller than width 46′ (shown in
Shirttail coverage 44, off wall of hole distance 52 and shirttail thickness 48 correspond to the protection provided to seal 18 during operation. Accordingly, seal boss offset 30 may improve seal protection, which extends seal life, which provides more reliable operation for drill bit 2. In addition, seal boss offset 30 decreases the seal boss diameter 60 which reduces seal speed, which, in turn, may increase seal life because the reduced seal boss diameter 60 means less distance traveled for the seal 18, e.g., seal 18 has a smaller outer diameter 66 than the outer diameter 66′ of seal 18′ shown in
Length 40 may be proportional to the seal cross section width 50. For example, in some embodiments, length 40 may be about 1% to about 50% of seal cross section width 50 (either confined or unconfined). By extending the effective surface of cutter bearing surface 26, drill bit 2 may include a floating journal bushing 16 with a larger height 54, i.e., height 54 is larger than height 54′ by about length 40. This increase in the height of floating journal bushing 16 corresponds to an increase in the load bearing surface of the journal 14, which, in turn, increases the load carrying capacity of drill bit 2, e.g., the load carrying capacity is directly proportional to the length from ball race 68 to seal gland 20. In addition, a longer floating journal bushing 16 may be more stable and run at cooler temperatures, among other factors that may increase the lifespan of floating journal bushing 16 and provide more reliable operation for drill bit 2. Cutter bearing surface extension 38 may also limit or prevent seal extrusion.
From the foregoing detailed description of specific embodiments of the invention, it should be apparent that a seal assembly for a drill bit that is novel has been disclosed. Although specific embodiments of the invention have been disclosed herein in some detail, this has been done solely for the purposes of describing various features and aspects of the invention, and is not intended to be limiting with respect to the scope of the invention. It is contemplated that various substitutions, alterations, and/or modifications, including but not limited to those implementation variations which may have been suggested herein, may be made to the disclosed embodiments without departing from the spirit and scope of the invention as defined by the appended claims which follow.
Crawford, Micheal Burl, Nunley, Pele Jason, Flak, Richard August
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10494873, | Nov 09 2016 | VAREL INTERNATIONAL IND , L P | Roller cone bit having gland for full seal capture |
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Executed on | Assignor | Assignee | Conveyance | Frame | Reel | Doc |
Aug 02 2007 | Burintekh USA, LLC | (assignment on the face of the patent) | / | |||
Jun 08 2011 | General Electric Capital Corporation | ULTERRA DRILLING TECHNOLOGIES, L P | RELEASE BY SECURED PARTY SEE DOCUMENT FOR DETAILS | 026430 | /0658 | |
Jun 08 2011 | General Electric Capital Corporation | ULTERRA, LP | RELEASE BY SECURED PARTY SEE DOCUMENT FOR DETAILS | 026430 | /0658 | |
Jul 21 2011 | NUNLEY, PELE JASON | Burintekh USA, LLC | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 027010 | /0243 | |
Jul 21 2011 | FLAK, RICHARD A | Burintekh USA, LLC | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 027010 | /0243 | |
Sep 29 2011 | CRAWFORD, MICHEAL BURL | Burintekh USA, LLC | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 027010 | /0243 |
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